CN211496074U - Rotary assembly of bucket-wheel stacker reclaimer - Google Patents

Abstract

The utility model discloses a rotary component of a bucket-wheel stacker reclaimer, which comprises an annular rotary support, wherein the rotary support comprises an upper connecting plate and a lower connecting plate which are arranged in parallel, and an annular vertical plate is arranged between the upper connecting plate and the lower connecting plate; a rotary inner rail is arranged on one side of the upper connecting plate close to the center of the rotary support, and a rotary upper rail is connected above the upper connecting plate; a middle connecting plate is arranged on one side of the vertical plate, which is far away from the rotary inner track, and the middle connecting plate and the upper connecting plate are arranged in parallel and are uniformly provided with a plurality of connecting columns at intervals; the rotary component of the bucket-wheel stacker reclaimer is easy to assemble and install, simple in structure and good in stability; the synchronous motion of the walking component on the upper rotary rail, the walking wheel on the inner rotary rail and the gear connecting piece on the outer connecting column can be ensured, and the rotary stability of the upper main body part of the bucket-wheel stacker-reclaimer is ensured.

Description

Rotary assembly of bucket-wheel stacker reclaimer

Technical Field

The utility model relates to bucket-wheel stacker-reclaimer's technical field, concretely relates to bucket-wheel stacker-reclaimer's gyration subassembly.

Background

A bucket-wheel stacker-reclaimer is a continuous-conveying efficient loading and unloading machine which is used for large-scale dry bulk cargo storage yards and can stack and reclaim materials. The material taking machine comprises a rubber belt conveying arm capable of pitching and horizontally swinging, a bucket wheel at the front end of the rubber belt conveying arm, a rack, a running mechanism, a slewing mechanism and the like, wherein the material is taken out by the bucket wheel and is sent out by the conveying arm during material taking, and goods conveyed by a main conveyor are thrown to a yard by the conveying arm during material piling.

In the existing bucket-wheel stacker-reclaimer, a slewing device is mounted on a base, an upper part of the reclaimer is arranged above the slewing device, and the upper part can rotate on the slewing device. The common rotating device comprises a large gear ring and an inner rotating track; a pinion gear is usually attached to the revolving body (connecting the upper member and the ring gear), and the pinion gear is engaged with the ring gear, and the ring gear is fixed to the base. The whole revolving body rotates relative to the base due to the meshing of the pinion and the large gear ring. The slewing mechanism with the structure has the advantages of complex structure, inconvenient assembly and disassembly, time and labor waste, and stable bearing sealing.

Disclosure of Invention

The utility model aims at providing a rotation assembly of bucket-wheel stacker reclaimer to the problem that prior art exists.

In order to achieve the above object, the utility model adopts the following technical scheme:

a rotary component of a bucket-wheel stacker reclaimer comprises an annular rotary support, wherein the rotary support comprises an upper connecting plate and a lower connecting plate which are arranged in parallel, and an annular vertical plate is arranged between the upper connecting plate and the lower connecting plate; a rotary inner rail is arranged on one side of the upper connecting plate close to the center of the rotary support, and a rotary upper rail is connected above the upper connecting plate; one side of the vertical plate, which is far away from the rotary inner track, is provided with a middle connecting plate, and the middle connecting plate and the upper connecting plate are arranged in parallel and are uniformly provided with a plurality of connecting columns at intervals.

The rotary component of the bucket-wheel stacker reclaimer is easy to assemble and install, simple in structure and good in stability due to the arrangement of the rotary support; the synchronism of the movement of the walking component on the upper rotary track, the walking wheel on the inner rotary track and the gear connecting piece on the outer connecting column can be ensured, and the rotary stability of the upper main body part of the bucket-wheel stacker-reclaimer is ensured;

the upper connecting plate, the lower connecting plate, the vertical plate and the middle connecting plate are combined in a connecting mode, so that on one hand, the vertical plate is easy to manufacture independently, and is convenient for later maintenance;

the connecting columns are used for replacing the original gear structure, the manufacturing difficulty of the large gear ring is reduced, each connecting column can be independently adjusted, replaced and installed, and the convenience of maintenance is improved.

Furthermore, a plurality of first rib plates and second rib plates are respectively arranged below the upper connecting plate and on two sides of the vertical plate in a one-to-one correspondence manner; the first rib plate is rectangular and is connected with the middle connecting plate at the lower part; the second rib plate is arranged on one side close to the rotary inner track and is an inclined rib plate.

The first rib plate and the second rib plate play a role in connecting and reinforcing the rigidity between the upper connecting plate and the vertical plate; and enough supporting force is provided for the upper connecting plate, and the stability of the rotary upper rail and the rotary inner rail connected above the upper connecting plate is ensured.

Furthermore, a plurality of first supporting plates are fixedly connected between the lower connecting plate and the upper connecting plate as well as between the lower connecting plate and the vertical plate, third rib plates are respectively arranged on two sides of each first supporting plate, two ends of each third rib plate are respectively welded on the lower connecting plate and the vertical plate, and the side edges of each third rib plate are welded with the first supporting plates; and an installation block is fixedly arranged between the end part of each first supporting plate and the inner side wall of the lower connecting plate.

The first supporting plate supports the inner side of the rotary support integrally, so that the strength and stability of the inner side are enhanced and improved; the mounting block is used for mounting the rotary component on a base of the material taking machine.

Furthermore, a plurality of second support plates are fixedly connected between the lower connecting plate and the middle connecting plate as well as between the lower connecting plate and the vertical plate, fourth rib plates are respectively arranged on two sides of each second support plate, and two ends of each fourth rib plate are respectively welded on the lower connecting plate and the vertical plate, and the side edges of each fourth rib plate are welded with the second support plates; and an installation block is also fixedly arranged between the end part of each second support plate and the side wall of the lower connecting plate.

The second supporting plate supports the outer side of the rotary support integrally, so that the strength and stability of the outer side are enhanced and improved, and the effects of supporting and stabilizing the middle connecting plate and the connecting column are achieved; the mounting block is also used for mounting the rotary assembly on a large platform of a reclaimer.

Furthermore, the lower connecting plate, the vertical plate and the middle connecting plate are all in a sectional type, and connecting blocks are respectively arranged among the sections; the end part of the connecting block is welded below the upper connecting plate, and the side wall of the connecting block is respectively welded and fixed with the vertical plate and the middle connecting plate on two sides; and fifth rib plates are symmetrically arranged between the connecting block and the vertical plate.

The sectional lower connecting plate, the sectional vertical plate and the sectional middle connecting plate are convenient to manufacture and install and can be independently replaced and maintained; the connecting block is used for connecting the connecting block completely and forming an annular rotating structure, and the difficulty of direct welding between the end parts of each section is reduced.

Furthermore, the lower connecting plate, the vertical plate and the middle connecting plate are divided into four sections which are connected end to form an annular structure.

Furthermore, the connecting columns are symmetrically distributed at intervals by taking the center of the rotating support as a center, and two ends of each connecting column are respectively connected to the middle connecting plate and the upper connecting plate in a clamping manner.

Further, the section of the inner rotary rail is rectangular.

Furthermore, the rotary upper track is an I-shaped track, and two sides of the track are respectively screwed on the upper connecting plate through steel rail fasteners.

The rotary upper rail and the vertical plate are symmetrically arranged on two sides of the upper connecting plate, so that the rotary upper rail and the gravity center of the vertical plate are located on the same axial line, and the balance and the stability of the whole body can be improved.

Furthermore, the upper junction plate is an integrated structure, and the upper junction plate, the vertical plate and the rotary inner rail are in welded connection. The structure of the integral upper connecting plate provides an integral reference plane, so that the installation and the position arrangement of other components are facilitated, and the function of supporting the upper part and the lower part is achieved.

Compared with the prior art, the beneficial effects of the utility model are that: 1. the rotary component of the bucket-wheel stacker reclaimer is easy to assemble and install, simple in structure and good in stability due to the arrangement of the rotary support; the synchronism of the movement of the walking component on the upper rotary track, the walking wheel on the inner rotary track and the gear connecting piece on the outer connecting column can be ensured, and the rotary stability of the upper main body part of the bucket-wheel stacker-reclaimer is ensured; 2. the upper connecting plate, the lower connecting plate, the vertical plate and the middle connecting plate adopt a segmented combination connecting mode, so that on one hand, the upper connecting plate, the lower connecting plate, the vertical plate and the middle connecting plate are easy to manufacture independently, and the later maintenance is also convenient; the structure of the integral upper connecting plate provides an integral datum plane for supporting the upper part and the lower part, so that the installation and the position arrangement of other parts are convenient; 3. the connecting columns are adopted to replace the original gear structure, the manufacturing difficulty of the large gear ring is reduced, each connecting column can be independently adjusted, replaced and installed, and the convenience of maintenance is improved; 4. the collocation setting of multiple floor and backup pad can strengthen this gyration subassembly's connection stability, rigidity and intensity on the whole, distinguishes the stationarity of reclaimer gyration operation.

Drawings

Fig. 1 is a schematic front three-dimensional structure view of a revolving assembly of a bucket-wheel stacker reclaimer of the present invention;

fig. 2 is a schematic back side perspective view of a revolving assembly of the bucket-wheel stacker reclaimer of the present invention;

fig. 3 is a schematic cross-sectional view of a-a of a rotating assembly of a bucket-wheel stacker reclaimer according to the present invention;

fig. 4 is a schematic cross-sectional view of a rotating assembly of a bucket-wheel stacker reclaimer according to the present invention;

fig. 5 is an enlarged schematic structural diagram of a rotating assembly of the bucket-wheel stacker reclaimer of the present invention at position C;

fig. 6 is a schematic view of a rotation assembly of a bucket-wheel stacker reclaimer according to the present invention in a use state;

in the figure: 1. an upper connecting plate; 2. a lower connecting plate; 3. a vertical plate; 4. a middle connecting plate; 5. connecting columns; 6. rotating the upper rail; 7. a revolving inner rail; 8. a second rib plate; 9. a first rib plate; 10. a first support plate; 11. mounting blocks; 12. a third rib plate; 13. a second support plate; 14. a fourth rib plate; 15. connecting blocks; 16. a fifth rib plate; 17. a rail fastener; 18. a walking assembly; 19. a traveling wheel; 20. a gear connection; 21. a large support.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are only some embodiments, not all embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "middle", "upper", "lower", "left", "right", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The first embodiment is as follows:

as shown in fig. 1 and 2, a rotating assembly of a bucket-wheel stacker reclaimer comprises an annular rotating support, wherein the rotating support comprises an upper connecting plate 1 and a lower connecting plate 2 which are arranged in parallel, and an annular vertical plate 3 is arranged between the upper connecting plate 1 and the lower connecting plate 2; a rotary inner rail 7 is arranged on one side of the upper connecting plate 1 close to the center of the rotary support, and a rotary upper rail 6 is connected above the upper connecting plate 1; the riser 3 is kept away from one side of gyration inner rail 7 is equipped with well connecting plate 4, well connecting plate 4 with upper junction plate 1 parallel arrangement and the even a plurality of spliced poles 5 that are equipped with in interval between the two.

The rotary component of the bucket-wheel stacker reclaimer is easy to assemble and install, simple in structure and good in stability due to the arrangement of the rotary support; the synchronism of the movement of the walking component on the upper rotary track, the walking wheel on the inner rotary track and the gear connecting piece on the outer connecting column can be ensured, and the rotary stability of the upper main body part of the bucket-wheel stacker-reclaimer is ensured;

the upper connecting plate 1, the lower connecting plate 2, the vertical plate 3 and the middle connecting plate 4 are combined to be connected, so that on one hand, the single manufacture is easy, and the later maintenance is convenient;

the connecting columns 5 are used for replacing the original gear structure, the manufacturing difficulty of the large gear ring is reduced, each connecting column can be independently adjusted, replaced and installed, and the convenience of maintenance is improved.

Further, as shown in fig. 3, a plurality of first rib plates 9 and second rib plates 8 are respectively arranged below the upper connecting plate 1 and at two sides of the vertical plate 3 in a one-to-one correspondence manner; the first rib plates 9 are rectangular and are connected with the middle connecting plate 4 at the lower part; the second rib plate 8 is arranged on one side close to the inner rotary rail 7, and the second rib plate 8 is an inclined rib plate.

The first rib 9 and the second rib 8 function to connect and reinforce the rigidity between the upper tie plate 1 and the riser 3; and sufficient supporting force is provided for the upper connecting plate 1, and the stability of the rotary upper rail 6 and the rotary inner rail 7 connected above the upper connecting plate is ensured.

Further, as shown in fig. 4 and 5, a plurality of first support plates 10 are further fixedly connected between the lower connecting plate 2 and the upper connecting plate 1 as well as between the lower connecting plate and the vertical plate 3, third ribs 12 are respectively arranged on two sides of each first support plate 10, two ends of each third rib 12 are respectively welded on the lower connecting plate 2 and the vertical plate 3, and the side edges of each third rib are welded with the first support plates 10; and an installation block 11 is fixedly arranged between the end part of each first supporting plate 10 and the inner side wall of the lower connecting plate 2.

The first supporting plate 10 supports the inner side of the rotary bracket integrally, so that the strength and stability of the inner side are enhanced and improved; the mounting block is used for mounting the rotary component on a base of the material taking machine.

Furthermore, a plurality of second support plates 13 are fixedly connected between the lower connecting plate 2 and the middle connecting plate 4 as well as between the lower connecting plate and the vertical plate 3, a fourth rib plate 14 is respectively arranged on two sides of each second support plate 13, and two ends of each fourth rib plate 14 are respectively welded on the lower connecting plate 2 and the vertical plate 3, and the side edges of the fourth rib plates are welded with the second support plates 13; and a mounting block 11 is also fixedly arranged between the end part of each second supporting plate 13 and the side wall of the lower connecting plate 2.

The second supporting plate 13 supports the outer side of the slewing bracket as a whole, so that the strength and stability of the outer side are enhanced and improved, and the functions of supporting and stabilizing the middle connecting plate 4 and the connecting column 5 are achieved; the mounting block is also used for mounting the rotary assembly on a large platform of a reclaimer.

Further, as shown in fig. 5, the lower connecting plate 2, the vertical plate 3 and the middle connecting plate 4 are all in a sectional type, and connecting blocks 15 are respectively arranged between the sections; the end of the connecting block 15 is welded below the upper connecting plate 1 (fig. 5 is a back view), and the side wall of the connecting block 15 is respectively welded and fixed with the vertical plate 3 and the middle connecting plate 4 on two sides; and a fifth rib plate 16 is also symmetrically arranged between the connecting block 15 and the vertical plate 3.

The segmented lower connecting plate 2, the vertical plate 3 and the middle connecting plate 4 are convenient to manufacture and install and can be independently maintained; the connecting block is used for connecting the connecting block completely and forming an annular rotating structure, and the difficulty of direct welding between the end parts of each section is reduced.

Furthermore, the lower connecting plate 2, the vertical plate 3 and the middle connecting plate 4 are equally divided into four sections which are connected end to form an annular structure.

Each section of the lower connecting plate 2 and the vertical plate 3 are provided with six pairs of first supporting plates 10 and second supporting plates 13; two groups are arranged at the section close to the partition, and one group is arranged in the middle of each section; the strength and rigidity of the section connection part can be improved and strengthened by adopting the arrangement mode.

Furthermore, the connecting columns 5 are symmetrically distributed at intervals on the center of the rotating support, and two ends of each connecting column 5 are hinged to the middle connecting plate 4 and the upper connecting plate 1 respectively.

Further, the section of the inner revolving rail 7 is rectangular.

Further, the rotary upper track 6 is an I-shaped track, and two sides of the track are respectively screwed on the upper connecting plate 1 through steel rail fasteners 17.

The rotary upper track 6 and the vertical plate 3 are symmetrically arranged on the upper side and the lower side of the upper connecting plate 1, so that the gravity centers of the rotary upper track 6 and the vertical plate 3 are located on the same vertical axial line, and the balance and stability of the whole body can be improved.

Furthermore, the upper connecting plate 1 is of an integrally formed structure, and the upper connecting plate 1, the vertical plate 3 and the rotary inner rail 7 are in welded connection. The structure of the integral upper connecting plate provides an integral reference plane, so that the installation and the position arrangement of other components are facilitated, and the function of supporting the upper part and the lower part is achieved.

Example two:

this embodiment provides an operating condition of the rotating assembly of the first embodiment.

Specifically, as shown in fig. 6, the revolving assembly is generally provided with a walking assembly 18 and a walking wheel 19; the travelling wheels 19 are fixedly connected to the large bracket 21; the large bracket 21 is connected with the walking component 18 through a mounting plate and a steel structure to form a large revolving body, and a main body component of the reclaimer can be arranged above the large revolving body; two sides of the large bracket are respectively meshed and connected with the connecting column 5 through gear connecting pieces 20;

when the equipment runs, the walking assembly 18 makes a rotary motion along the rotary upper track 6 and is simultaneously connected with and supports the large support 21, the walking wheels 19 on the inner side of the large support 21 move along the rotary inner track 7, and the outer side of the large support 21 synchronously moves through the meshing transmission action of the connecting column 5 and the gear; the rotary movement of the rotary component in the inner direction, the outer direction and the upper direction together realizes the rotary movement of the large support 21, and the rotary stability is good.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A rotary component of a bucket-wheel stacker reclaimer comprises an annular rotary support, and is characterized in that the rotary support comprises an upper connecting plate and a lower connecting plate which are arranged in parallel, and an annular vertical plate is arranged between the upper connecting plate and the lower connecting plate; a rotary inner rail is arranged on one side of the upper connecting plate close to the center of the rotary support, and a rotary upper rail is connected above the upper connecting plate; one side of the vertical plate, which is far away from the rotary inner track, is provided with a middle connecting plate, and the middle connecting plate and the upper connecting plate are arranged in parallel and are uniformly provided with a plurality of connecting columns at intervals.

2. The rotating assembly of the bucket-wheel stacker reclaimer of claim 1, wherein a plurality of first ribs and second ribs are respectively provided below the upper connecting plate and on two sides of the vertical plate in a one-to-one correspondence; the first rib plate is rectangular and is connected with the middle connecting plate at the lower part; the second rib plate is arranged on one side close to the rotary inner track and is an inclined rib plate.

3. The rotating assembly of the bucket-wheel stacker reclaimer of claim 1, wherein a plurality of first supporting plates are further fixedly connected between the lower connecting plate and the upper connecting plate as well as between the lower connecting plate and the vertical plate, wherein a third rib plate is respectively arranged on each of two sides of each first supporting plate, and two ends of each third rib plate are respectively welded on the lower connecting plate and the vertical plate, and the side edges of each third rib plate are welded with the first supporting plate; and an installation block is fixedly arranged between the end part of each first supporting plate and the inner side wall of the lower connecting plate.

4. The rotating assembly of the bucket-wheel stacker reclaimer of claim 1, wherein a plurality of second supporting plates are further fixedly connected between the lower connecting plate and the middle connecting plate as well as between the lower connecting plate and the vertical plate, a fourth rib is respectively arranged on two sides of each second supporting plate, and two ends of each fourth rib are respectively welded on the lower connecting plate and the vertical plate, and the side edges of each fourth rib are welded with the second supporting plates; and an installation block is also fixedly arranged between the end part of each second support plate and the side wall of the lower connecting plate.

5. The rotating assembly of the bucket-wheel stacker reclaimer of claim 1, wherein the lower connecting plate, the riser and the middle connecting plate are all segmented, and connecting blocks are respectively arranged between segments; the end part of the connecting block is welded below the upper connecting plate, and the side wall of the connecting block is respectively welded and fixed with the vertical plate and the middle connecting plate on two sides; and fifth rib plates are symmetrically arranged between the connecting block and the vertical plate.

6. The slewing assembly of a bucket-wheel stacker reclaimer of claim 5, wherein the lower connecting plate, the riser and the middle connecting plate are each divided into four segments connected end to form an annular structure.

7. The rotating assembly of a bucket-wheel stacker reclaimer of claim 1, wherein the connecting columns are symmetrically distributed at even intervals around the center of the rotating bracket, and two ends of the connecting columns are respectively connected to the middle connecting plate and the upper connecting plate.

8. The swing assembly of a bucket-wheel stacker reclaimer of claim 1, wherein the cross section of the swing inner rail is rectangular.

9. The rotating assembly of a bucket-wheel stacker reclaimer of claim 1, wherein the upper rotating rail is an i-shaped rail, and both sides of the rail are respectively screwed on the upper connecting plate through a steel rail fastener.

10. The rotating assembly of the bucket-wheel stacker reclaimer of claim 1, wherein the upper connecting plate is an integrally formed structure, and the upper connecting plate and the riser and the rotating inner rail are all welded.

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